Ever wanted to grow bacteria for a science project or just for fun? It's surprisingly simple - all you need is some nutrient agar (a special gelatinous growing material), a number of sterilized Petri dishes and some disgustingly good sources of bacteria!

Steps

Part 1

Preparing the Petri Dishes

1

Prepare the agar. Agar is the jelly-like substance used to culture bacteria. It is made from a type of red algae, which provides an ideal growing surface for many different types of bacteria. Some types of agar contain added nutrients (such as sheep's blood) which help to promote more vigorous bacterial growth.

The easiest type of agar to use in this experiment is a nutrient agar which comes in powder form. You will need as much agar as you need, but don't use less than 1.2 grams (½ teaspoon) of agar powder for every 10 centimetres (3.9 in) Petri dish you wish to use.

In a heatproof dish or bowl, stir 1.2 grams (½ teaspoon) of the nutrient agar powder into 60 millilitres (0.25 c) of hot water. Multiply these quantities by however many Petri dishes you plan on using.

Place the bowl or dish in the microwave and begin to boil for 1 minute, watching to make sure that the agar solution doesn't boil over.

When the solution is ready, the agar powder should be completely dissolved and the liquid should be clear in color.

Allow the agar solution to cool for several minutes before proceeding.[1]

2

Prepare the Petri dishes. Petri dishes are small flat-bottomed containers made of clear glass or plastic. They have two halves - a top and a bottom - which slot into one another. This protects the contents from any unwanted contaminated air, but also allows any gasses produced by the bacteria to escape.

Petri dishes must be completely sterilized before they are used for growing bacteria, otherwise, the results of the experiment could be affected. Newly purchased Petri dishes should come pre-sterilized and sealed in plastic packaging.

Remove the Petri dish from its packaging and separate the two halves. Very carefully, pour the warm agar solution into the bottom half of the Petri dish - just enough to form a layer over the bottom of the dish. Work in the presence of a candle with a tall flame or a Bunsen burner to keep contamination low.

Quickly replace the top half of the Petri dish to prevent any airborne bacteria from contaminating the experiment. Set the Petri dishes aside for 30 minutes to 2 hours, until the agar solution cools and hardens (when it’s ready it will resemble set Jell-O).

3

Refrigerate the Petri dishes until ready to use. If you don't plan on using the agar-filled Petri dishes immediately, they should be stored in the refrigerator until you are ready to proceed with the experiment.

Storing the Petri dishes in the refrigerator prevents the water inside the dishes from evaporating (bacteria need a moist environment to grow). It also allows the surface of the agar to harden slightly, which prevents any tearing or gouging when you transfer your bacteria samples.

When storing Petri dishes in the refrigerator, the dishes should be placed upside down. This helps to prevent any condensation on the lid from dropping down and disrupting the growing surface.

Agar-filled Petri dishes will keep in the refrigerator for as long as a couple of months. When you are ready to use them, remove them from the refrigerator and allow them to reach room temperature before introducing your samples.

Part 2

Growing Bacteria

1

Introduce bacteria to the Petri dishes. Once the agar solution has hardened and the Petri dishes are at room temperature, you are ready for the fun part - introducing the bacteria. There a couple of methods of doing this - through direct contact or through sample collection.

Direct contact: This is when bacteria are transferred to the Petri dish using direct contact, i.e. touching the agar. One of the most common ways of doing this is to simply press your fingertip (either before or after washing your hands) lightly onto the surface of the agar. However, you could also try pressing a fingernail or the surface of an old coin into the agar, or even placing a small hair or drop of milk into the dish. Use a sterile cotton swab if you have one available. Use your imagination!

Sample collection: With this method, you can collect bacteria from almost any surface and transfer it to the Petri dish, all you need are some clean cotton swabs. Simply grab a swab and swipe it over of any surface you can think of - the inside of your mouth, a door handle, the keys on your computer keyboard or the buttons of your remote control - then use it to streak the surface of the agar (without tearing it). These places harbor a lot of bacteria, and should provide some interesting (and disgusting) results in a couple days time.

If you like, you can place more than one sample of bacteria in each Petri dish - all you need to do is divide the dish into quadrants (quarters) and swipe a different sample of bacteria in each of them.

It is recommended that you keep one quadrant of the Petri dish free of bacteria sample to use as a control group. This allows you to know if the agar had been contaminated prior to the introduction of bacterial samples.

2

Label and seal the Petri dishes. Once you have introduced the bacteria, you should replace the lid on the Petri dish and seal it with some parafilm or Saran wrap.

Make sure to label each Petri dish with the source of the bacteria it contains, otherwise you won't be able to tell which is which. You can do this using some tape and a marker.

As an extra precaution, you can place each Petri dish in a zipper-lock bag. This will provide an extra layer of protection against any hazardous bacteria colonies that may develop, but will still allow you to view the contents of the Petri dish.

3

Place the Petri dishes in a warm, dark place. Leave the Petri dishes in a warm, dark place where the bacteria can develop, undisturbed, for several days. Remember to store the dishes upside down, so the bacterial growth remains undisturbed by any water droplets.

The ideal temperature for growing bacteria is between 70 and 98 degrees F (20-37 degrees C). If necessary, you can place the Petri dishes in a cooler location, but the bacteria will grow a lot more slowly.

Leave the bacteria to develop for 4-6 days, as this will give the cultures enough time to grow. Once the bacteria begins to grow, you may notice a smell coming from the dishes.

4

Record your results. After a couple of days, you will notice an amazing variety of bacteria, molds and fungi growing inside each Petri dish.

Use a notebook to record your observations on the contents of each dish and perhaps come to a conclusion about which locations had the most bacteria.

Was it the inside of your mouth? The door handle? The buttons on your remote control? The results may surprise you!

If you like, you can measure the daily growth of the bacteria colonies by using a felt-tip marker to trace a circle around each colony on the bottom of the Petri dish. After several days, you should have a collection of concentric rings on the bottom of each dish. This will help you count and record the data.

5

Test the effectiveness of antibacterial agents. An interesting variation of this experiment is to introduce an antibacterial agent (hand sanitizer, soap, etc.) to the Petri dish in order to test its effectiveness.

Once you have introduced bacteria to the Petri dish, use a cotton swab to place a small drop of hand sanitizing gel, disinfectant soap or household bleach into the center of the bacteria sample, then continue the experiment as normal.

As the bacteria in the dish grows, you should see a ring or "halo" around the spot where you placed the antibacterial agent where no bacteria is growing. This is known as the "kill zone" (or more accurately, the "zone of inhibition").

You can measure the effectiveness of different antibacterial agents by comparing the size of the kill zones in each Petri dish. The wider the kill zone, the more effective the antibacterial agent.

Part 3

Safely Disposing of the Bacteria

1

Take the proper safety precautions. Before you attempt to dispose of your Petri dishes, you first need to take the proper safety precautions.

Although most of the bacteria you grow will not be hazardous, large bacteria colonies may pose more of a risk - so you will need to kill them before disposal using household bleach.

While it is generally recommended to use fresh dishes for each experiment, it is possible to reuse dishes if needed. Sterilization methods will vary depending on the material of your dish (glass vs. plastic). If your plastic Petri dishes were used to harvest live pathogens, it is recommended to use a new dish as the risk of cross-contamination is high.

Using two sets of petri dishes, create one group of bacteria samples taken before washing your hands and one group taken after washing your hands. Compare growth of the bacteria between groups over time.

I've heard you need an incubator to grow bacteria. Is this safe to do at home?

Fred Deng

Community Answer

Bacteria is capable of growing at room temperature, which is around 20 degree Celsius. Therefore, although the use of an incubator is recommended, it is not required. As for safety concerns, as long as you do not collect samples from places like bathrooms which may contain pathogenic bacteria, and if you properly dispose of any bacteria grown at the end of the experiment, it should be relatively safe to do at home.

Tips

Try using a potato dextrose agar as a growth medium. Prepare a potato dextrose medium by boiling a 20 grams (0.71 oz) potato, 4 gm (2 tsp) of agar and 2 gm (1 tsp) of dextrose in a beaker. Put this solution in a Petri dish and let it dry. Take some sterile cotton swabs and rub it over any place (remote, door handle, water pipe, etc.). Close the Petri dish using plastic wrap. Let it incubate for 24 hours in a warm place. Next day, check the Petri dish. You should be able to see colonies of bacteria.

Warnings

Never put anything in the dish which is likely to grow into dangerous bacteria (bodily fluids should never be placed on a Petri dish). If the dish is reopened it could cause serious illness.

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